Rock mechanics and engineering : prediction and control of landslides and geological disasters: Fid-Bau Portal

Rock mechanics and engineering : prediction and control of landslides and geological disasters

Fu, Helin / Chen, Wei / Fu, Jiajun

Intro -- Rock Mechanics and Engineering: Prediction and Control of Landslides and Geological Disasters -- Copyright -- Contents -- Acknowledgments -- Foreword -- Foreword (2) for the Belt and Road Series -- Chapter 1: Overview of research -- Chapter 2: Similar simulation tests of landslides -- 2.1. Purpose and significance -- 2.2. Simulated test site -- 2.2.1. Project profile -- 2.2.2. Geological survey -- 2.3. Field simulation test of landslides triggered by artificial rainfall -- 2.3.1. Purpose -- 2.3.2. Implementation process and content -- 2.3.3. Monitoring methods and instruments

2.3.4. Layout of measuring points -- 2.3.5. Artificial rainfall simulator -- 2.3.6. Embedding of monitoring instruments -- 2.3.7. Monitoring period and frequency -- 2.3.8. Test results analysis -- 2.3.9. Fluid-solid coupled numerical simulation of landslide instability -- 2.4. Field simulation test of landslides induced by mechanical excavation -- 2.4.1. Purpose and implementation content -- 2.4.2. Test design -- 2.4.3. Excavation sequence -- 2.4.4. Landslide development process -- 2.4.5. Test results analysis -- 2.5. Chapter summary

Chapter 3: Rockfall mechanisms and block theoretical stability analysis -- 3.1. Generation mechanism of rockfalls -- 3.1.1. Definition of a rockfall -- 3.1.2. Differences between landslides and rockfalls -- 3.1.3. Classification of rockfalls -- 3.1.4. Factors affecting the occurrence of rockfalls -- 3.1.5. Regularity of the time of rockfalls -- 3.2. Stability analysis of sliding rockfalls using block theory -- 3.2.1. Sliding rockfall stability analysis principle -- 3.2.2. Basic concepts of block theory -- 3.2.3. Vector discriminating steps in block theory

3.2.4. Calculation of stability coefficient for movable blocks -- 3.2.5. Correction of block theory -- 3.2.6. Stereographic projection method of block theory -- 3.2.7. Compilation of program for block theory -- 3.3. Stability calculation for potential rockfalls -- 3.3.1. Basic assumptions -- 3.3.2. Basic patterns, force analysis and stability check -- 3.4. Chapter summary -- Chapter 4: Potential hazard prediction of rockfalls -- 4.1. Introduction -- 4.2. Research methods for predicting potential hazards of high-speed railway landslides

4.3. Kinematic equation of a rockfall and determination of its parameters -- 4.3.1. The falling of a rock -- 4.3.2. Sliding of rockfalls -- 4.3.3. Free falling of a rock -- 4.3.4. Bounce and collision of rockfalls -- 4.3.5. Rock rolling -- 4.4. Chapter summary -- Chapter 5: Laboratory tests -- 5.1. Conclusion of indoor rockfall simulation test -- 5.2. Indoor acoustic emission test -- 5.2.1. Test procedure -- 5.2.2. Test analysis -- 5.2.3. Experimental results -- 5.3. Field experiments on acoustic emission characteristics of rocks -- 5.3.1. Purpose and method of experiment